Latest Articles for Materials Science

New techniques enhance our understanding of dislocation behavior in materials.

New approach reveals how AI predicts material properties transparently.

Researchers develop a method to better analyze crystal defects using Kikuchi patterns.

A look into ultraclean Andreev interferometers and their role in superconductivity.

Spintronic devices may transform computing by offering efficient power use and high speed.

Research highlights the potential of Janus MXenes in thermoelectric applications.

Research highlights fast switching and low energy use of VO memristors.

Learn how skyrmions could change the future of electronic devices.

Hydrogen influences the electronic structure and properties of vanadium-zirconium metallic glass.

Research on PbTe-based HEAs reveals insights into atomic movement and defect formation.

Learn how new techniques improve quantum simulation for complex systems.

Investigating how hairy particles change shape at liquid-liquid boundaries.

Researchers enhance ionic conductivity in sodium-ion batteries by modifying NASICON materials.

A study of spins in random networks and their interactions.

Research reveals how electric fields enhance electricity generation in MAPbI3 microcrystals.

New datasets and machine learning techniques enhance understanding of high-entropy materials.

This study examines the magnetic properties of BaCo(AsO) and its unique behaviors.

Exploring how quasiparticles affect the performance of superconducting qubits in quantum computing.

Study reveals links between classical magnets and exotic spin liquid states.

This study examines how disorder affects the behavior of type II superconductors in magnetic fields.

Study reveals methods to control magnetic domain walls in nanowires.

Research on trapped ions reveals insights into their dynamics and interactions.

This article explores the nematic phases seen in fractional quantum Hall states under magnetic fields.

Examining how annealing influences the superconducting properties of niobium crystals.

Researchers examine lithium niobate tantalate's unique properties and potential applications.

A look into knot properties and the perturbed Alexander invariant.

Auxetic materials offer intriguing properties for various applications across industries.

Exploring the classification and properties of mixed-state SPT phases in quantum systems.

Machine learning improves predictions of band gaps, enhancing material electronic property insights.

Gels can change shape and size, impacting various scientific applications.

Exploring how carbonated silicate grains influence cosmic dust and star formation.

Research uncovers links between shapes of porous materials and their chemical reactions.

Research showcases how skyrmions enhance magnetic field sensing technology.

A theoretical approach enhances our understanding of colloidal suspensions under shear flow.

Research explores VQAs for solving nonlinear quantum dynamics challenges.

New findings on THz magnons could enhance technology performance and speed.

A new approach improves atomic interaction descriptors with geodesic distance.

Study reveals exciting behaviors in the excitonic insulator TaNiSe.

Exploring the effects of scarring and antiscarring in quantum systems.

Combining photometric stereo with SHeM enhances 3D imaging of microscopic surfaces.